Publication: Study on atomization characteristics for power generation application
Date
2013
Authors
Anwar Z.M.
Tan E.S.
Adnan R.
Idris M.A.
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Physics Publishing
Abstract
The world is dependent on two common basic needs which is electricity and water supply. Thus, power generation is the pulse of a country's econmony. However, most of today's power is generated from fossil fuel which is non sustainable. This research aims to study the feasibility of biodiesel to substitute diesel fuel for gas turbine application. The objective is to investigate the atomization characteristics using various blend of biodiesel derived from transesterification of palm oil. There are five types of fuels tested which are pure Diesel, B20, B50, B80 and B100 which were experimentally tested in a spray atomizer to evaluate the relationship of the of the fuel blend ratio with atomization characteristics such as spray cone angle, spray tip penetration and Sauter Mean Diameter. Besides that, fuel chemical properties testing were conducted to ensure the fuel chemical properties for tested fuel meet the standard requirements for gas turbine fuel oil. Result shows that the higher blend of biodiesel will give larger SMD, longer spray tip penetration, and a smaller spray cone angle. The SMD was calculated based on a general equation. Meanwhile, spray angle and spray tip was obtained from photos captured and anlayzed using software. � Published under licence by IOP Publishing Ltd.
Description
Keywords
Biodiesel , Blending , Chemical properties , Diesel fuels , Electric power generation , Fuels , Gas turbines , Water supply , Atomization characteristics , Gas turbine applications , Gas turbine fuels , General equations , Power generation applications , Sauter mean diameter (SMD) , Spray tip penetration , Standard requirements , basic needs , biofuel , chemical property , conference proceeding , feasibility study , fossil fuel , power generation , software , sustainability , theoretical study , turbine , Combustion